Material for protecting articles having a nonwoven fabric bonded to a shrink film by an adhesive applied in a pre-determined pattern
A shrinkable protective material includes a nonwoven fabric bonded to a shrinkable film by an adhesive that is applied to either the nonwoven fabric or the shrinkable film in a pre-determined pattern. Upon shrinking, the nonwoven fabric separates or releases from the film and forms cushions or pillows holding the film off of the surface being protected. The edge portions of the cushions or pillows act as shock absorbers and deflect over the bonds, thus protecting the surface against the abrasive adhesively bonded portions.
Latest Transhield Technology AS Patents:
This application is a continuation-in-part of U.S. patent application Ser. No. 09/664,896 filed on Sep. 19, 2000 now U.S. Pat. No. 6,562,740. The disclosure of the above application is incorporated herein by reference.
TECHNICAL FIELDThis invention relates to a material for protecting articles during transport and storage, a method of manufacturing the material, and a method of using the material to protect articles.
BACKGROUND OF THE INVENTIONLarge articles, such as automobiles, machinery and boats must often be transported from the factory to the ultimate consumer on open trucks where they are exposed to the environment. Consumers expect that new automobiles, boats and machinery to be in pristine condition, and will not tolerate defects. As discussed in prior U.S. Pat. No. 5,491,017, damage may be caused by a number of factors, including acid rain and hurled objects, such a small rocks and stones. The wrap material disclosed in U.S. Pat. No. 5,491,017 includes a nonwoven fabric intermittently bonded to a shrinkable and stretchable film that has a predetermined shrink response as heat is applied thereto. The material is formed into a bag which is placed over the object be protected. The bag is then shrunk around the object with the nonwoven fabric engaging the surface of the object and supporting the film off of the surface of the object.
SUMMARY OF THE INVENTIONThe present invention relates to an improved material and methods for its manufacture. An adhesive is applied to a contoured gravure roll whereby when rotated across a first material of nonwoven fabric or thermoplastic film, an adhesive is applied in a pre-determined pattern. The adhesive generally covers from about 4.0 to about 33.0% of the nonwoven fabric or thermoplastic film to which it is applied. The other of the nonwoven fabric or thermoplastic film is then adhered to the material bearing the adhesive by bringing the non-adhesive bearing material into contact with the adhesive bearing material with a limited amount of pressure. When the film is shrunk, the nonwoven fabric separates from the film in the areas between the bonds to provide raised portions, thereby protecting the surface of the article from contact with the bonded portion of the nonwoven fabric.
Often, it is desirable to prevent contact between the bonded portions of the nonwoven fabric and the surface because the cured adhesive occurring along the bonded portion of the fabric is abrasive, as is the film, and any contact by either the film or the adhesive with the surface can cause damage. By protecting the surface of the object from the adhesive bonds, damage caused by rubbing of the bonded portion of the nonwoven fabric across the surface being protected, which occurs for example during handling of the object during transport storage, is prevented. The repeating nature of the pattern of adhesive also facilitates manufacture and strengthens and adds tear resistance to the material.
These and other advantages of the present invention will become apparent from the following description, with reference to the accompanying drawings, in which:
Referring now to the figures, a shrinkable, protective material made according to the present invention is generally indicated by the numeral 10. Protective material 10 includes a layer 12 of a shrinkable film and a layer 14 of a nonwoven fabric, preferably a hydro-entangled nonwoven fabric. By the phrase “shrinkable, stretchable film”, it is meant that the thermoplastic film retains a predetermined level of post shrink elasticity and a relatively low post shrink modulus after heating. These so called shrinkable, stretchable films are available from Wright Plastics Corporation, Prattville, Ala. and sold as film TS-5 or a film sold as film C-40 by Crayex Corporation, Piqua, Ohio. The nonwoven fabric can be made out of fibers such as polyester, nylon 6,6, or a combination of wood pulp and staple polyester fibers. A commercially available hydro-entangled nonwoven fabric useful in accordance with the teachings of the present invention is Sontara, available from DuPont, Inc.
The film and nonwoven fabric are secured to one another by an adhesive which is placed on the film according to the method depicted in
Accordingly, the bonded areas 20 of the material are much smaller than the unbonded areas 22.
Referring specifically now to
According to a first embodiment, the outer circumferential surface 26 of the gravure roll 28 is provided with a first set of substantially parallel grooves 42 and a second set of substantially parallel grooves 44 which extend obliquely, i.e., perpendicularly with respect to the first set of grooves to define diamond-shaped areas 46 on the surface 26. The grooves 42,44 define lower portions of the surface 26 and the areas 46 define the outer circumferential surface 26. The adhesive is maintained in molten form in a conventional adhesive dispenser generally indicated at 48.
Dispenser 48 includes a receptacle 50 in which the adhesive is maintained in the molten state and a roller 52 that extends parallel to the outer circumferential surface 26 and applies adhesive from the receptacle 50 on the entire surface 26, including both the grooves 42,44 and the areas 46. The adhesive is sufficiently liquid that it readily fills the grooves 42,44. The roll 26, after the adhesive is applied to the outer circumferential surface 28, is rotated past a conventional doctor blade 54 that scrapes the adhesive off of the areas 46, thereby leaving adhesive only in the grooves 42, 44, so that adhesive is deposited on the film 12 in a substantially diamond shaped pattern 16. Other linear and non-linear, generally parallel adhesive patterns such as a hexagonal pattern, while not specifically illustrated, are contemplated and should theoretically give rise to the so-called pillows described in greater detail below.
As illustrated in
The pillows 56 generally have an increasing average height dimension (from base to pinnacle prior to being applied over a surface) as the shrink rate of the film in both the machine and cross-machine directions increase. For example and without limitation, for a material having a shrink stretch film with an average thickness of about 5 mils and a nonwoven fabric layer having an average thickness of about 14 mils, the average pillow height will increase to approximately 140 mils at a 10% shrink rate. At a 20% shrink rate, the average pillow height is approximately 210 mils and at a 35% shrink rate, the average pillow height is approximately 380 mils. Thus, for each 10% increase in the shrink rate, the pillow height increases at least about two times (2×) prior to application over a surface. By the phrase “shrink rate”, it is meant the amount of shrinkage occurring, not the speed at which shrinkage occurs.
While a substantially diamond shaped pattern has been discussed above as a preferred pattern, it should be understood that the invention is not limited to any particular pattern 16 of applying adhesive to the film 12. For example, and referring to the alternate embodiment of
Referring now to
To ensure that adhesive remain essentially along the raised portions of the nonwoven material, the nonwoven material is held slightly away from the gravure roll 28 as the adhesive is being applied. By holding the nonwoven film away from the surface of the gravure roll by at least about {fraction (1/1000)} of an inch up to about {fraction (50/1000)} of an inch, the adhesive should be maintained along the raised portions of the nonwoven film as opposed to significantly entering the interstitial openings in the nonwoven fabric.
Likewise, to ensure that the thermoplastic film is adjoined to the nonwoven fabric with slight or limited pressure, the nip pressure is preferably maintained at a rate of between about 1.0 to about 9.0 lbs. of pressure per lineal inch (lb/pli) depending on the nonwoven fabric, thermoplastic film and adhesive employed as well as the rates at which the materials are fed through the manufacturing equipment. Nip pressures below about 1.0 lb/pli tend not to effectively join the materials and nip pressures above about 9.0 lb/pli cause the adhesive to be pressed into the interstitial openings of the nonwoven fabric which is undesirable. Thus, the nip pressure is set and constantly monitored to ensure that the adhesive remains along the raised portions of the nonwoven fabric to a very high degree.
As illustrated in
While it will be apparent that the preferred embodiments of the invention disclosed are well calculated to fulfill the objects stated, it will be appreciated that the invention is susceptible to modification, variation and change without departing from the spirit thereof.
Further, most applications of the material will require that the layer 12 of a shrinkable, stretchable film beyond bonded to substantially the entire area of nonwoven fabric, it is fully contemplated area specific bonding embodiments are well within the scope of the present invention.
Claims
1. Shrink wrap material for protecting an object from surface damage comprising a nonwoven fabric layer for engaging said object when the material is applied to said object, a heat shrinkable thermoplastic film layer having a pre-determined shrink response when heat is applied thereto and an adhesive applied to said nonwoven fabric layer in a predetermined pattern defining first areas bearing said adhesive and second areas being void of said adhesive, said nonwoven layer being intermittently bonded to said film by said adhesive, whereby upon shrinking said film, said nonwoven fabric gathers up in the areas void of adhesive to form pillows that overlie the first areas of the film including adhesive, thus maintaining the bonded portions of the fabric and heat shrinkable film away from the object, thereby protecting said object from surface damage.
2. Shrink wrap material as claimed in claim 1, wherein said predetermined pattern defining said first area includes parallel lines.
3. Shrink wrap material as claimed in claim 1, wherein said predetermined pattern of adhesive defining said first areas include a first set of parallel lines and a second set of parallel lines crossing said first set of parallel lines.
4. Shrink wrap material as claimed in claim 3, wherein said patterned adhesive is substantially diamond shaped.
5. Shrink wrap material as claimed in claim 1, wherein said pillows have an increasing average height dimension from base to pinnacle prior to application over a surface as the shrink rate of said film increases.
6. Shrink wrap material as claimed in claim 5, wherein said average height dimension of said pillows increases by a factor of at least about two times for each 10% increase in the shrink rate of said film.
7. Shrink wrap material as claimed in claim 1, wherein said adhesive covers between about 4.0 to about 33.0% of said nonwoven fabric layer or shrinkable thermoplastic film to which it is applied.
8. Shrink wrap material as claimed in claim 7, wherein said adhesive is selected from the group consisting of pressure sensitive and non-pressure sensitive hot melt adhesives.
9. Shrink wrap material as claimed in claim 1, wherein said thermoplastic film is a shrinkable stretchable thermoplastic film.
10. Shrink wrap material as claimed in claim 1, wherein said nonwoven fabric is in the form of hydrogenated fibers.
11. Shrink wrap material for protecting an object from surface damage comprising: a heat shrinkable film outer layer having a pre-determined shrink response when heat is applied thereto, a nonwoven fabric inner layer for engaging said object when said material is shrunk around said object, and a patterned adhesive intermittently applied to said nonwoven layer and disposed between said film outer layer and said nonwoven fabric inner layer thereby coupling said film outer layer to said nonwoven fabric inner layer to form bonded areas and unbonded areas whereby, upon the application of heat to said material, the nonwoven fabric occurring along said unbonded areas gather up to overlie the adhesive occurring along said bonded areas thereby maintaining the bonded areas away from the object.
12. Shrink wrap material as claimed in claim 11, wherein said patterned adhesive includes substantially parallel lines.
13. Shrink wrap material as claimed in claim 11, wherein said patterned adhesive includes a first set of substantially parallel lines and a second set of lines substantially perpendicular to said first set of parallel lines.
14. Shrink wrap material as claimed in claim 13, wherein said patterned adhesive is substantially diamond shaped.
15. Shrink wrap material as claimed in claim 11, wherein said unbonded overlying portions of the nonwoven fabric include edge portions extending from the adhesive, said edge portions being deflected over said bonded areas.
16. Shrink wrap material as claimed in claim 15, wherein said unbonded areas of the nonwoven fabric separates from said film upon shrinking of the film.
17. Shrink wrap material as claimed in claim 11, wherein said unbonded areas of the nonwoven fabric include deflecting portions deflecting over the bonded areas of the nonwoven upon shrinking of the film to thereby protect the surface from abrasion by the bonded portions of the nonwoven.
18. Shrink wrap material as claimed in claim 11, wherein said unbonded overlying portions of nonwoven fabric include pillows having portions which extend over said bonded portions.
19. Shrink wrap material as claimed in claim 11, wherein said pillows have an increasing average height dimension from base to pinnacle prior to application over a surface as the shrink rate of said film increases.
20. Shrink wrap material as claimed in claim 19, wherein said average height dimension of said pillows increases by a factor of at least about two times for each 10% increase in the shrink rate of said film.
21. Shrink wrap material as claimed in claim 11, wherein said adhesive covers between 4.0 to about 33.0% of said film.
22. Shrink wrap material as claimed in claim 1, wherein said nonwoven fabric includes raised portions, whereby said adhesive is substantially applied only along the raised portions of said nonwoven.
23. Shrink wrap material as claimed in claim 12, wherein said nonwoven fabric includes raised portions, whereby said adhesive is substantially applied only along the raised portions of said nonwoven.
3017729 | January 1962 | Cheeley |
3653497 | April 1972 | Hornstein |
3694995 | October 1972 | McKinney |
3809223 | May 1974 | Kendall |
4247509 | January 27, 1981 | Talbot |
4725473 | February 16, 1988 | Van Gompel |
4748070 | May 31, 1988 | Beehler |
4763783 | August 16, 1988 | Talbot |
4821785 | April 18, 1989 | Rolan |
4891249 | January 2, 1990 | McIntyre |
4938522 | July 3, 1990 | Herron et al. |
5029933 | July 9, 1991 | Gillem |
5149578 | September 22, 1992 | Wheatley et al. |
5342469 | August 30, 1994 | Bodford |
5491017 | February 13, 1996 | Todt |
5536555 | July 16, 1996 | Zelazoski et al. |
6562740 | May 13, 2003 | Todt |
1194706 | June 1970 | GB |
52-27595 | July 1977 | JP |
56-84778 | July 1981 | JP |
60-198239 | October 1985 | JP |
62-85940 | April 1987 | JP |
2-192941 | July 1990 | JP |
4-215924 | August 1992 | JP |
Type: Grant
Filed: Feb 20, 2002
Date of Patent: Apr 5, 2005
Patent Publication Number: 20020077015
Assignee: Transhield Technology AS (Oslo)
Inventor: Gregory L. Todt (Union, MI)
Primary Examiner: Elizabeth M. Cole
Assistant Examiner: Norca L. Torres
Attorney: Harness, Dickey & Pierce, P.L.C.
Application Number: 10/079,642